With this one, there is only a single wire, which emerges from the radio, runs through the PTT and then ends where the earpiece starts. This makes for a simple yet effective look. As for the length of the cable, the one wire kit has a piece that runs between 28 and 34 inches. This means that you have at your disposal a length sufficient to cover the distance between your ears and the waist without any kind of stretching or straining. Of course, the reach of every security earpiece will be determined by the height of the person wearing it. The one wire kit is great for an average height and will work for anyone 6 feet and below.

Most one wire kits come in the original D and G shapes. There are some fancier designs out there as well if thatâs what you are looking for.

As the name suggests, there are two wires involved in this scenario. One runs to the Push to Talk (PTT) button. The other runs up to the earpiece, making for a good looking dual connection. For the purposes of discretion, you are allowed to wear this cable partially disguised within your clothing. One wire will emerge from the radio, rising up your back to the ear in a way that keeps you comfortable. The other cable runs from the radio, up the length of your hands and terminates at the cuffs if you are wearing a long-sleeved shirt or sweater. In terms of length, the two-wire kit is essentially the same as its one wire counterpart, with a reach of 30 to 34 inches. This accounts strictly for the length of each individual wire, and allows the unit to comfortably cover the areas between your waist and the ears. Two wire kits commonly come in the form of an acoustic tube that many who know a little about surveillance will be able to understand.

3 Wire kits

Here, you have three wires coming off the radio. The first wire will terminate where the earpiece is built. The second will end where the Push to Talk button is located. The last will end at a connection with the mic. As with the two wire kits, this one is worn under ordinary clothing, with a cable for the mic, earpiece and PTT button. There is really no standard length for all the three wires and there is no guarantee that all of them will be equal in length, but there is a sense of flexibility in the way you get to use the piece. Always try on sample pieces before making a purchase at a store. Over the internet purchases are trickier but then the measurements will be highlighted long before you order.

Understanding the functionality of PTT technology

Push to Talk is a cutting-edge technology that allows for direct communication between parties at agreed-upon frequencies and distances. The greatest thing about PTT is that it switches communications from duplex to half duplex. This means people do not talk over each other but get to alternate between speaking and listening. PTT is able to loop in two or more speakers at an instance of communication, allowing for conference-like types of engagements between participants. This streamlines communication. Most enterprises prefer this approach to communication because there are no limitations in terms of allotted minutes. As such, there is absolutely no need to stay within the confines of a data plan, which would be both expensive, inconvenient and rigid.

There is no such thing as a right security earpiece. What works for you may not work for all other parties across the board. While your budget matters a lot, you are looking for something that works optimally and stands the test of time. The three types mentioned above are alright if you are looking for something that works all the time. Remember, prices will vary across brands and models.

Radio frequency (often abbreviated as, RF), can be described as any frequency within the electromagnetic spectrum with radio wave propagation that lie in the range extending from about 3 kHz to 300 GHz; this includes the frequencies that are used for communications or the radar signals. That said, you should know that RF generally refers to electrical rather than the mechanical oscillations.

RF communication utilizes radio waves rather than wires to exchange signals, and this is where the term “wireless communication,” comes from. RF modules generally use frequencies to distinguish the different radio signals, therefore, in order for the RF modules to communicate, they have to be operating on the same exact frequency. That said, you should know that radio frequency is normally measured in units known as hertz (abbreviated as Hz), which represent number of cycles/second when the radio wave(s) is transmitted. 1 hertz (Hz) equals 1 cycle/second, and 1 megahertz (abbreviated as, MHz) equals 1 million cycles/second.

A radio frequency (RF) signal basically refers to the wireless electromagnetic signal that’s utilized as a form of communication, when talking about wireless electronics. As mentioned earlier, radio waves are a type of electromagnetic radiation which have identified radio frequencies which usually range from about 3Hz to 300 GHz. Not every radio wave is the same; they can be small or big, or they can be far apart or close together. On the radio stations we normally listen to, every station uses waves which are on a slightly different frequency from the other stations. Whenever you happen to switch from one radio station to another, your radio picks up and then plays waves of that particular frequency.

Frequency normally refers to the oscillation rate of the radio waves. It can also refer to how close together or far apart the waves are. When the radio waves are too far apart, that is known as low frequency, and when the radio waves are close together, that is known as high frequency. That said, you should know that radio frequency propagation happens at speed of light, and doesn’t need any medium (such as air) in order for it to travel. Radio frequency waves occur naturally from lightning, the sun flares, and even from stars which radiate radio frequency waves as the get older. However, people usually communicate with man made radio waves which oscillate at various select frequencies.

The man made radio frequency waves are produced by oscillating current for a certain number of times, and radiating it off the conductor (which is referred to as the antenna), into an empty space (this is the space that’s occupied by air and not the outer space), as electromagnetic radio waves. The RF signals are received and sent using conductors via the phenomenon that’s called the skin effect, where radio frequency current latches itself and then flows through the conductors’ surface; this effect is actually the basis and the core of radio technology.

The best thing about RF communication, is that it’s omnipresent (that is to mean it’s all around us). It plays a crucial role in many of the communications systems which we depend on a daily basis, such as fire and police radio systems, TV and radio broadcasts, and satellite communications. Cordless phones, cellphones, Wireless internet (Wi Fi), and Bluetooth also operate in the radio frequency spectrum. In addition to that, there are other appliances outside of the communications field that use RF. They include; microwave ovens, garage door openers, among others. Some wireless devices such as TV remote controls, cordless computer mice, computer keyboards, and even two way radios also operate using RF frequency.

2 way radios are based on the RF frequency and they perform group communication using minimum radio frequency channel resources. This is to mean that if all the users are in the same location or area (most of the time), you will only need a single channel resource in order to talk to them. By using RF, 2 way radios have the capability of facilitating âone to manyâ group communication (which is also known as a group call), very efficiently. By efficient, I mean that 1 user can communicate/talk to 1, 5, 10, 100 or even 1000’s of users at a go. The two way radio user doesnât need to keep on repeating the same message if he/she needs to convey to many users.

Motorola solutions are a company well known for their robust two way radios and for building world class communication structures. Improving on the current TETRA system with an IP dispatch console and piloting the WAVE system, that allows a phone app to connect to the radio system, for communicating of site. You can read more about what Motorola are doing for Munich below and you can find the original article here.

Motorola Solutions has received an order to implement a comprehensive update and extension of its existing TETRA digital two-way radio system at Munich Airport.

The newly modernized communications infrastructure ensures greater connectivity, interoperability and collaboration between various business and operational functions at Germanyâs second largest airport. Motorola Solutions will also provide services for ensuring smooth operations.

Within the framework of the TETRA radio network refresh, Motorola Solutions is equipping the airport with a new MCC 7500 IP Dispatch Console. The comprehensive, scalable solution enhances the IP architecture to ensure optimum call set up and availability. It will also allow Munich Airport to expand its communications infrastructure in the future without interrupting existing services. As well as this, Motorola Solutions will implement two TETRA base stations for improved TETRA radio coverage in the terminal buildings.

Alongside the improvements to the TETRA system, the airport has started a pilot project for the potential introduction of Motorola Solutionsâ broadband push-to-talk (PTT) platform WAVE. The goal of the installation is to ensure that airport staff can communicate, no matter which device or infrastructure is being used. The powerful PTT solution WAVEâ¢ Work Group Communications provides airport authorities with secure and reliable communications beyond TETRA radio â including broadband devices and networks â to enable greater workforce connectivity, interoperability and collaboration. WAVE connects the TETRA system used by administrative staff with service management employees who join the broadband platform via smartphones, computers, other radios or telephones, meaning that staff across the airport can communicate with one another from virtually any location.

âWe have been working with Motorola Solutionsâ TETRA two-way digital radio system since 2007,â said Michael Zaddach, head of the IT service division at Flughafen MÃ¼nchen GmbH. âThe update of our TETRA infrastructure enables us to further improve our communications in airport operations and make our processes even more efficient.â

âWe are collaborating closely with Munich Airport to provide a future-proof TETRA digital two-way radio network,â said Klaus-Dieter Drossel, sales director for key accounts, Motorola Solutions Germany GmbH. âWe are also pleased that Munich Airport is testing our broadband push-to-talk platform WAVE, and we are certain that it will enable airport staff to work together more closely, no matter which device or network they use.â

Here is the UK we commonly see coaches and physios on the football (soccer) bench wearing earpieces to communicate with each other, But this Baseball Coach wants to give the players an earpiece to improve player-to-coach communications. His argument is good, but will he be allowed?

Earlier in the week, Major League Baseball elected toÂ remove the four-pitch sequence of the intentional walkÂ from the game in order to speed up the pace of play. On Thursday, New York Yankees manager Joe Girardi threw his two cents into the ring regarding the current pace of play.

However, the veteran skipper did not comment on the recent rule change surrounding the intentional walk but rather the potential for hitters to wearÂ an earpiece similar to that of NFL quarterbacks.

In the NFL, quarterbacks areÂ notorious for having a speaker inside their helmet while players on the defensive side of the football now have such technology in their helmets as well.

âYou put earpieces in certain people,â he added. âRealistically you could put it in your hitters helmets and you could say what you wanted. Then its not a sign from me to the third base coach and a sign to the player. Instead of catchers always going out to change signs they could do it through communication. I think you could speed the game up a lot that way. The thing about signs is that signs take time and it slows it down.

However, many have argued that the removal of the four-pitch intentional walk was also parting ways with the potential for human error. Wouldnt the same be true for the lack of signs if Girardis earpiece system were implemented?

A player can very easily misinterpret a sign along the way, which could cause a difference in the game due to human error. Although many fans and people outside of the game would probably have less of an opinion regarding the managers new approach, it is nearly impossible to make everyone happy these days.

Effective communication is crucial to the success of any business. Poor communication can easily lead to the collapse of any business regardless of size. If youâre running a huge business where keeping in touch with your staff is important, then you must put in place a very efficient communication system. A system that is not only efficient but also cost effective. These two factors are the reason 2 way radios are popular with modern businesses. A 2 way radio is a communication device that can both transmit and receive signal. It allows users using the same frequency to have a conversation at minimal or zero cost.

The fact that a 2 way radio can only receive and send information at a set frequency improves your business’ safety. You can keep the frequency a secret such that only certified individuals can access crucial information. The radio also allows you to create several channels for specific groups. This option allows you to call individual groups whenever the need arises. For example, if the information is meant for security department, it will not be necessary to have it broadcasted to other groups.

Its broad geographical coverage is another reason you should have this communication gadget. If your business Covers a vast geographic area such as a farm or a construction site, this is the perfect mode of communication to employ. It can also be an effective security monitoring system if it’s well managed and utilized. Combining this system with GPS and the CCTV can significantly improve matters of security for your business.

But who can use the 2 way radio system?

A 2 way radio is one of the most user friend and flexible communication gadgets. Any firm can use it regardless of size. The radio is indeed the perfect model for a business that is struggling with geographical coverage challenges. It is ideal for shift workers, security staff, production line inspectors, farm workers, construction sites, shop watch and the list is endless. Anyone can use it. It only requires a little bit training on how to receive or to send a signal, and the user will be good to go.

Advantages of 2 way radios

One thing that stands out from this system is the reduced cost of communication- the cost is almost zero-rated compared to the other systems such as mobile phones. A 2 way radio is also very simple to use since you simply press the button to start talking. This speed can be crucial in cases of emergency compared to mobile phones where you will be needed to dial several buttons to make a call.

With this radio system, you can talk to multiple users at once- this is not possible with mobile phones. The gadget is built to military specs -the radio can be used in wet conditions and can withstand even a drop on the concrete surface. 2 way radio is one of the devices that can work in all areas of your business where mobile phones donât work. The last but not the list of the advantage is that the radio stays on site, and thus different shifts can conveniently share it.

Key questions before installing a 2 way radio system

There are several questions that you must get clear answers to before you install a 2 way radio system. First, the area that the radio system is going to be used must be known. This will determine the power of the transmitter needed to cover that area. The number of people projected to use the radios should be the next question. The answer gives the number of radios required. The last question should be your budget. You must purchase what you can afford without compromising on the quality. With these questions answered, then you can have the most efficient 2 way radio communication system for your business.

We found this article and couldnât not post this to our blog, it shows how hearing damage is on the upsurge. With cases of hearing loss growing every year, hearing amplifiers and hearing aids sales have consistently increased. There doesnât seems to be an answer to this rise but as technology improves, answers can come that way.

Hearing loss can occurs when inner ear or nerve is damaged, which may be caused due to diseases, aging, loud noise, and medications. Hearing amplifier is a small part of hearing aid which makes the sound louder. Hearing amplifiers increase the power of signals and then send them to the ear through speakers.

Hearing aid is useful in improving the hearing and speech of patients. An otolaryngologist investigates the cause of the hearing loss. An audiologist is a hearing health professional who identifies and measures hearing loss and will perform a hearing test to assess the type and degree of hearing loss.

Increase in number of hearing impairment cases coupled with rising costs of hearing aids are expected to drive the growth of the global hearing amplifiers market during the forecast period. Majority of the consumers use hearing amplifiers or personal sound amplification products (PSAPs) as they are considered cheaper alternatives of hearing aids. Hearing amplifiers or PSAPs, are designed to amplify sounds in any recreational environment and are exempt from the Food and Drug Administration (FDA). Hearing amplifiers are sold directly to consumers as electronic devices without the requirement of a physician prescription.

According to National Institute on Deafness and other Communication Disorders (NIDCD), approximately 324,200 cochlear implants have been implanted worldwide. About 15 percent of Americans (26 million people) between the ages of 20 and 69 have high frequency hearing loss due to exposure to noise at work or during leisure activities. Major driving factors for the growth of the global hearing amplifiers such as an increase in the number of prevalence of hearing impairment patients in old and young population, increasing investment in research and development in ENT field among others.

Based on styles or design types of hearing aid products the global market of hearing amplifiers can be segmented as follows:

-Behind-the-ear (BTE)

-Mini BTE

-In-the-ear (ITE)

-In-the-canal (ITC)

Based on function the global hearing amplifiers market can be segmented as follows:

-Analog hearing aids

-Digital hearing aids

Based on distribution channels the global hearing amplifiers market can be segmented as follows:

-Hospital Pharmacies

-Online Pharmacies

-Independent Pharmacies and Drug stores

Hearing amplifiers market is segmented into five major regions: North America, Europe, Latin America, Asia Pacific, and Middle East & Africa. In 2015, North America lead the global market of hearing amplifiers followed by the Europe in terms of revenue. According to statistics compiled by the National Institute on Deafness and Other Communication Disorders (NIDCD), 37.5 million adults aged 18 and older in America report some form of hearing loss.

According to the National Institute on Deafness and Other Communication Disorders (NIDCD), 28.8 million U.S. adults could benefit from using hearing aids and more than 90 percent of deaf children are born to parents suffering from some kind of hearing disorder. Globally, the hearing amplifiers market is expected to witness a healthy CAGR in terms of revenue during the forecast period.

Latin America, Middle East & Africa and Asia Pacific regions are the emerging markets in the global hearing amplifiers market. Increasing awareness among the various distribution channels as well as consumers in these regions is anticipated to propel global market growth of hearing aids and amplifiers during the forecast period.

Hytera are the fastest growing radio country this year, they have opened offices all over the world and are taking market share from Motorola. When you look at their Hytera accessories, Chargers, repeaters, hand portables and base units they are of an excellent standard and quality. That is probably why the Dominican Republic was persuaded to use them for two big projects.

Hytera, a world leading solution provider of Professional Mobile Radio communications, was awarded two projects by the Ministry of the Presidency of Dominican Republic. In order to establish a nationwide emergency response network for National Emergency Care System and Security 9-1-1 (Sistema Nacional de AtenciÃ³n a Emergencias y Seguridad), Dominican Republic government selected TETRA (Terrestrial Trunked Radio) technology for mission critical communications, and launched two public tenders at the end of 2015; one is to cover two cities, Haina and San Cristobal, adjacent to the capital city Santo Domingo, with 5 sites and 528 terminals, while the other is to cover Santiago, the second largest city of the country, with 30 sites and 2,155 terminals.

The existing TETRA network in theÂ Santo DomingoÂ area was delivered also by Hytera as a result of a contract awarded by Dominican Republic’s MinistryÂ of the Presidency in 2013. The project includes several components: the 911 system, a camera surveillance system and the communications infrastructure with its respective terminals which was awarded to Hytera. âThe system in Santo Domingo offers reliable communication services to the public safety forces, and it is a very good testimony of Hyteraâs solutions and supports,â said Fernando Camelo, regional director of Hytera international business.

âDominican Republic government officials have spent a lot effort to choose the right technologies for its public safety forces. Obviously, TETRA has been widely adopted and proved. We are proud to be part of the initiative of building a united nationwide mission critical communication system for the country,â commented Ming Kam Wong, deputy general manager of Hytera international business.

The TETRA digital standard as a global open protocol provides secure, encrypted communications for mission critical operations as well as promoting a more efficient use of spectrum. More than 750 interoperability (IOP) certificates have been awarded to more than two dozen manufacturers by the TETRA + Critical Communications Association (TCCA), the governing body, globally, for the TETRA standard.

Virtual reality and augmented reality will creep into our lives slowly in the next 10 years, it has so many applications from gaming to business. Motorola have been leading the radio industry for many years and are taking the initiative with this technology, While this will take away the need for CCTV, radios, radio earpieces and headsets, it will add a more immersive, structured way of running events and festivals.

Motorola SolutionsÂ is exploring a future where virtual reality will immerse a public safety command center supervisor in an incident scene. By using a combination of virtual reality and eye-interaction technologies to navigate through video and data feeds from multiple sources, incident responses can be quickly coordinated and information shared widely to help guide officers and protect people at the scene.

Motorola Solutions will show live demonstrations of the virtual command center on Aug. 15-16 at the Association of Public Safety Communications Officials (APCO) 2016, held at the Orange County Convention Center in Orlando, Fla. (booth #1337).

The virtual command center proof of concept uses eye-interaction technology from startup company Eyefluence, a Motorola Solutions Venture Capital investment, to envision the future of public safety.

A look at todayâs smart public safety solutions

Todayâs public safety command centers can integrate the Project 25 (P25) standards-based, interoperableÂ ASTROÂ®Â 25Â land-mobile radio (LMR) network for mission-critical communications with the power of LTE broadband and the latest in smart public safety solutions to turn data into intelligence.

Since 2009, Lake County, Fla. has been using Motorola Solutionsâ ASTRO 25 LMR network as the core network for emergency interoperable communications for several counties across Florida. On Aug. 17, Greg Holcomb, Lake County public safety communications technology manager/E911, will join Motorola Solutions in a managed services panel discussion at APCO entitled âSystems Down: Best Practices for Eliminating this Status from Your Network Performance Logsâ (see all Motorola Solutions presentations at APCO 2016Â here).

âThe Lake County core network and many connected sites on this P25 mission-critical communication system are managed by Motorola Solutions,â said Holcomb. âWith their robust managed services offerings, the company ensures 24×7 availability, reduced risks and maximized performance for our public safety network.â

Motorola Solutions’Â CommandCentralÂ platform provides real-time intelligence throughout all phases of police work â from planning, to operations, to investigations.Â CommandCentral AwareÂ aggregates video from several sources, allowing crime center analysts to view multiple feeds on one screen and share high-definition images of suspects, vehicles, license plate numbers and other critical information to responding officers in real time.

âLaw enforcement agencies have access to data from multiple sources including 9-1-1 calls, live video feeds, social media activity, nationwide databases and more,â said Jim Mears, senior vice president, Motorola Solutions North America Sales. âMotorola Solutionsâ CommandCentral platform captures this information and turns it into real-time intelligence that helps first responders resolve incidents quickly and even prevent them from happening.â

The CommandCentral platform will be showcased at APCO 2016, along with several of the latest mission-critical communication solutions from Motorola Solutionsâ Innovation Design Center in Plantation, Fla. This includes theÂ Si500Â body worn camera andCommandCentral VaultÂ digital management solutions, which automates and streamlines the processing of video from the point of capture to video management and review, and theÂ LEX L10Â LTE handheld device designed for the rigorous demands of real-world, front-line policing.

APX 8500 P25 all-band mobile radio:Â With Motorola Solutionsâ newÂ APXÂ 8500Â P25 all-band mobile radio, first responders can use a single mobile radio to exchange critical voice and data communications â such as text messages and GPS coordinates â with multiple agencies and jurisdictions operating on different radio bands. Radio updates can be made instantly without interrupting voice communications; the radio does not need to be brought to a shop, saving both time and money. When connected to the Motorola Solutions VML750 LTE vehicle modem (now available globally), the APX 8500 frees up radio channels by offloading data to LTE.

APX Personnel Accountability for ASTRO 25 trunked networks:Â The APX Personnel Accountability solution is now available for ASTRO 25 trunked networks (which enable efficient operation of large systems with a small number of channels) and continues to also be available onÂ ASTRO 25 conventional networks (where users select communication channels).

Commanders using the APX Personnel Accountability solution can automatically perform tactical notifications and streamline roll call processes via a computer. They can automatically account for staff using APX radios at the scene of an incident. If a team needs to evacuate, commanders can instantly alert them through their radios and receive acknowledgements. Commanders can monitor radio battery life, identify radios and receive radio power down indications. If a radio is on the wrong channel, a commander can remotely switch the channel to the right one and ensure the entire team can communicate with each other.

ASTRO 25 Enhanced Geo Select:Â Geo Select provides hands free operation of APX radios when entering a defined region, or geofence, and this feature is now available even if the radio is no longer on the network. When entering a geofence, APX radios can automatically take action such as change channels, alert the user and change power levels. No manual intervention is needed.

ASTRO 25 Over-The-Air radio software updates:Â ASTRO 25 Over-The-Air Programming (OTAP) has been available for radio managers to remotely program APX radios. Now they will also be able to update APX radio software over-the-air for their entire fleet simultaneously over the course of a few days, without disrupting radio function in the field. With this new feature, there is no need to bring radios to the shop for software updates, saving both significant time and money.

IMPRESâ¢ 2 energy system for APX radios:Â The newÂ IMPRES 2Â high-capacity, water-resistant batteries keep APX radios powered longer. When combined with the new IMPRES 2 charger, they deliver 60 percent more charging cycles than traditional lithium-ion batteries. The IMPRES 2 chargerâs enhanced diagnostics provide usage data including a batteryâs ability to hold a charge, letting users know when itâs time to replace it. The multi-unit chargers also feature customizable charging â batteries in service can be charged at 100 percent while those in storage can be partially charged to optimize battery life.

VR is the Buzz word for this year, every technology company clambering to get their headset out on to the market. Much of the market needs to catch-up though, the power of home computing needs to improve and removing the inevitable extra cabling and wires that come with current headsets. Luckily this article is about the future technology of VR headsets, see what we can expect as this technology grows.

If you want to use one of today’s major VR headsets, whether the Oculus Rift, the HTC Vive, or the PS VR, you have to accept the fact that there will be an illusion-shattering cable that tethers you to the small supercomputer that’s powering your virtual world.

But researchers from MITâs Computer Science and Artificial Intelligence Laboratory (CSAIL) may have a solution inÂ MoVr, a wireless virtual reality system. Instead of using Wi-Fi or Bluetooth to transmit data, the research teamâs MoVR system uses high-frequency millimeter wave radio to stream data from a computer to a headset wirelessly at dramatically faster speeds than traditional technology.

There have been a variety of approaches to solving this problem already. Smartphone-based headsets such asÂ Google’s Daydream ViewÂ and Samsung’s Gear VR allow for untethered VR by simply offloading the computational work directly to a phone inside the headset. Or the entire idea ofÂ VR backpacks, which allow for a more mobile VR experience by building a computer that’s more easily carried. But there are still a lot of limitations to either of these solutions.

THE MOVR PROTOTYPE SIDESTEPS TETHERED VR ISSUES

Latency is the whole reason a wireless solution hasn’t worked so far. VR is especially latency-sensitive, along with the huge bandwidth requirements that VR needs to display the level of high-resolution video required for virtual reality to work. But the MIT team claims that the millimeter wave signals can transmit fast enough to make a wireless VR headset feasible.

The issue with using millimeter wave technology is that the signal needs a direct line of sight, and fares poorly when it encounters any obstacles. MoVR gets around this by working as a programmable mirror that can direct the direction of the signal to the headset even while itâs moving to always make sure the signal is transmitting directly to the headset’s receivers.

For now, the MoVR is simply a prototype, with the team hoping to further shrink down the system to allow for multiple wireless headsets in one room without encountering signal interference. But even as a proof-of-concept, it’s an interesting perspective on how virtual reality could one day work.

We champion the advancement of communications within the emergency services, not only because it is an important part of their working day, but because they still have a long way to go before it is perfect. This news story comes from New Zealand and focuses on the fire service and is supplied by Motorola themselves.

Firefighters serving with New Zealand Fire Service will benefit from improved safety and communication while working in fire grounds through an innovative two-way radio solution.

The new solution from Motorola Solutions and Spark will enable the serviceâs 10,000 career and volunteer firefighters to stay connected to their colleagues in the field via reliable and robust voice communication.

Having attended around 73,000 incidents in the past year alone, New Zealand Fire Service needs the best tools for the job. The organisation will receive more than 4,500 new radios designed for use in the most severe fire ground environments.

A major feature of the solution is a cornerstone Motorola Solutions innovation, a remote speaker microphone that will be fully integrated within firefightersâ breathing apparatus. This will be combined with the radioâs convenient push-to-talk button, which enables firefighters to communicate easily and safely in the harshest conditions.

âCommunication is critical to safety on the incident ground, and much of that communication comes from the use of incident ground control (IGC) radio. Thatâs why we were so exacting in our requirements for these new radios.â

âThe radios will help us to resolve radio interface issues with firefightersâ breathing apparatus while also delivering improved noise cancellation and battery life.â

By using a combination of single and multiband radios operating across both VHF and UHF bands, the solution aligns with the fire serviceâs vision of leading integrated fire and emergency services for a safer New Zealand.

âThis radio solution enables us to move away from using a mix of models and frequencies and toward a nationally consistent standard that will make it easier to work with our emergency service partners,â Baxter said.

Murray Mitchell, Director ICT for the New Zealand Fire Service, said, âWe wanted a solution that is safe, easy to use and doesnât distract firefighters from their work during critical incidents.The design features incorporated in these new radios will help our firefighters work more safely and efficiently.â

Spark will provide in-country support including service management and a customer support desk.

Spark Digital CEO Tim Miles said: âRadios are life-saving tools for our emergency services, and great team communication can be the difference between a managed incident and a disaster. We are very proud to play a part in improving the on-ground experience for our Kiwi Fire Service heroes.â

Motorola Solutions Managing Director for New Zealand and Australia Steve Crutchfield said the solution drew on his companyâs experience in providing tailored, mission-critical communications for public safety agencies all over the world.

âFirefighters depend on reliable and robust voice communications in emergency situations so they can concentrate on the job of protecting our communities and potentially saving lives,â Crutchfield said.

The radios are part of a five-year contract, giving New Zealand Fire Service operational and cost certainty throughout the life of the contract.

The contract also provides access provisions for related government agencies wanting to take advantage of the new radio technology.